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Scientists in China's laboratories have developed hundreds of transgenic crops, but only one is insect-resistant cotton and planted widely on farms. This apparent paradox has inspired the writing of this book Agricultural Biotechnology in China: Origins and Prospects. Against the backdrop of ongoing global controversy over the safety and benefits of transgenic crops, this book focuses on two key questions: 1) What historical as well as recent economic, political and social developments account for China's sizeable investment in research on transgenic crops and the apparent mismatch between…mehr

Produktbeschreibung
Scientists in China's laboratories have developed hundreds of transgenic crops, but only one is insect-resistant cotton and planted widely on farms. This apparent paradox has inspired the writing of this book Agricultural Biotechnology in China: Origins and Prospects. Against the backdrop of ongoing global controversy over the safety and benefits of transgenic crops, this book focuses on two key questions: 1) What historical as well as recent economic, political and social developments account for China's sizeable investment in research on transgenic crops and the apparent mismatch between laboratory and commercial activity?; and 2) What are the chances that transgenic crops will be introduced on a large scale in China, and if so, what are the potential benefits, drawbacks, and constraints associated with widespread adoption? These questions are particularly timely as China's regulators may soon approve transgenic rice for commercial planting, making it the first food crop tobe grown on a large scale in China. China's investment in transgenic crops is driven as much by a broader science and technology development agenda as by the needs of its agricultural sector. Therefore, China's policymakers can securely pursue the first goal while postponing adoption decisions, which are likely to depend on the technology's greater global acceptance and the strength of regulatory oversight, extension mechanisms, and demonstrated need in China's rural areas.

The authors begin by describing the origins of China's earliest agrarian civilizations and how agricultural technology historically contributed to the emergence, rise, and fall of states and dynasties. The book then focuses on how post-industrial advances in chemistry and biology led to the development of technologies (including high-yielding seeds, pesticides, and fertilizers) that ushered in a period of expanding global harvests in the mid-20th Century known as the Green Revolution.The political, economic, and social factors that influenced the patterns of adoption as well as the successes and shortcomings of Green Revolution technologies in China are then explored in detail.

The authors then introduce transgenic crops - the origins, tools and techniques, and initial patterns of market acceptance or rejection worldwide - describe in depth why, where, and how research on transgenic crops first began in China. This section evaluates the effectiveness of policies that promoted science and technology development as part of the post-1978 reform agenda, and suggests why support for agricultural biotechnology-and transgenic crops in particular-was included alongside land and market reforms. The authors move on to questions related to adoption of transgenic crops in China, looking first at how structural changes in the seed industry and the introduction of value-added varieties are changing age-old relationships between farmers and seed providers. In the final chapters, the authors present how well suited transgenic crops may be to meeting persistent and emerging challenges facing China's agricultural sector today.
Autorenporträt
Valerie J. Karplus graduated from Yale University in 2002 with a Bachelor of Science degree in Molecular Biophysics and Biochemistry and Political Science. She lived in China for two years, where she researched the development and impact of agricultural biotechnology in China while based at the China Agricultural University (2002-2003) and National Institute of Biological Sciences, Beijing (2005-2006). Currently she is pursuing graduate study at the Massachusetts Institute of Technology. Dr. Xing Wang Deng is the Daniel C. Eaton Professor of Plant Biology at Yale University. His scientific work focuses on the molecular and genomic basis for plant development and agricultural biotechnology. He also serves as the co-director of the National Institute of Biological Sciences, Beijing and the founding director of the Peking-Yale Joint Research Center of Plant Molecular Genetics and Agro-biotechnology. He has led a research team that has published well over a hundred peer-reviewed articles in his area of research.
Rezensionen
"Karplus and Deng provide an excellent account of how developments in agricultural biotechnology may be the next big step in a long tradition of agricultural advances. I commend them for this outstanding piece of scholarship." -- Dr. Norman E. Borlaug, Nobel Peace Prize Laureate

"The book is well written and can be easily understood by intelligent laymen who are interested in this subject. The book not only carefully documents the events, but also includes an astute analysis of the strengths and weaknesses of the system." -- Dr. Ray Wu, Professor of Molecular Biology and Genetics, Cornell University

"This book documents the rapid rise in crop biotechnology R&D capacity in China over the past thirty years and helps illuminate a policy conundrum Chinese leaders currently face. As the authors indicate, China's success in finding the right balance between public and private priorities may well influence policies concerning agricultural biotechnology across much of the developing world." -- Dr. Gary Toenniessen, The Rockefeller Foundation

"This book is a valuable contribution to the literature on the role of science in developing countries. The authors have done an excellent job of describing agricultural biotechnology in laymen's terms, presenting interviews with the scientists who developed the technology, and then describing the impact of technology based on the latest scholarly evidence. In addition, it has a well-balanced presentation of the current Chinese policy debates on biosafety regulation. I will definitely use it in my science policy and economic development courses in the future." -- Dr. Carl E. Pray, Professor of Agriculture, Food, and Resource Economics, Rutgers University…mehr